利用lacZ基因融合技术测定大肠杆菌recA基因的体内表达
Measurement of in vivo expression of the recA gene of Escherichia coli by using lacZ gene fusions.
作者信息
Weisemann J M, Funk C, Weinstock G M
出版信息
J Bacteriol. 1984 Oct;160(1):112-21. doi: 10.1128/jb.160.1.112-121.1984.
A recA-lacZ protein fusion was constructed in vivo by using bacteriophage Mu dII301(Ap lac). The fusion contained the promoter and first 47 codons of the recA mutant, as determined by DNA sequence analysis. The fusion was cloned and used to construct a recA-lacZ operon fusion at the same site within the recA gene. These fusions were introduced into the Escherichia coli chromosome at the lambda attachment site either as complete or cryptic lambda prophages. Synthesis of beta-galactosidase from these fusions was inducible by UV radiation. As the UV dose was increased, induction became slower and persisted for a longer period of time. At low doses of UV radiation, more beta-galactosidase was produced in a uvrA mutant than in a wild-type strain; however, at high doses, no induced synthesis of beta-galactosidase occurred in a uvrA mutant. recA+ strains carrying either the protein or operon fusion on a multicopy plasmid showed reduced survival after UV irradiation. This UV sensitivity was not exhibited by strains containing a single copy of either fusion, however; hence, the fusions provide a reliable measure of recA expression.
通过使用噬菌体Mu dII301(Ap lac)在体内构建了recA-lacZ蛋白融合体。如通过DNA序列分析所确定的,该融合体包含recA突变体的启动子和前47个密码子。该融合体被克隆,并用于在recA基因内的同一位点构建recA-lacZ操纵子融合体。这些融合体作为完整的或隐性的λ原噬菌体被引入到大肠杆菌染色体的λ附着位点。来自这些融合体的β-半乳糖苷酶的合成可被紫外线辐射诱导。随着紫外线剂量的增加,诱导变得更慢且持续更长时间。在低剂量紫外线辐射下,uvrA突变体中产生的β-半乳糖苷酶比野生型菌株中更多;然而,在高剂量下,uvrA突变体中未发生β-半乳糖苷酶的诱导合成。在多拷贝质粒上携带蛋白或操纵子融合体的recA+菌株在紫外线照射后存活率降低。然而,含有任一融合体单拷贝的菌株未表现出这种紫外线敏感性;因此,这些融合体提供了recA表达的可靠度量。
Zotero 插件